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156. International research priorities on the role of cognition in power mobility device use: In pursuit of informed clinical practices and knowledge translation

Author

Best, Krista, primary, Smith, Emma, additional, Pellichero, Alice, additional, Sorita, Eric, additional, Archambault, Philippe, additional, Kenyon, Lisa, additional, Lamontagne, Marie-Eve, additional, Lemelin, Bruno, additional, Kirby, R. Lee, additional, and Routhier, Francois, additional

Published
2021
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157. Sediment reworking by the burrowing polychaete Hediste diversicolor modulated by environmental and biological factors across the temperate North Atlantic. A tribute to Gaston Desrosiers

Author

Gilbert, Franck, primary, Kristensen, Erik, additional, Aller, Robert C., additional, Banta, Gary T., additional, Archambault, Philippe, additional, Belley, Rénald, additional, Bellucci, Luca G., additional, Calder, Lois, additional, Cuny, Philippe, additional, de Montaudouin, Xavier, additional, Eriksson, Susanne P., additional, Forster, Stefan, additional, Gillet, Patrick, additional, Godbold, Jasmin A., additional, Glud, Ronnie N., additional, Gunnarsson, Jonas, additional, Hulth, Stefan, additional, Lindqvist, Stina, additional, Maire, Anthony, additional, Michaud, Emma, additional, Norling, Karl, additional, Renz, Judith, additional, Solan, Martin, additional, Townsend, Michael, additional, Volkenborn, Nils, additional, Widdicombe, Stephen, additional, and Stora, Georges, additional

Published
2021
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160. Corrigendum: Imprint of Climate Change on Pan-Arctic Marine Vegetation

Author

Krause-Jensen, Dorte, primary, Archambault, Philippe, additional, Assis, Jorge, additional, Bartsch, Inka, additional, Bischof, Kai, additional, Filbee-Dexter, Karen, additional, Dunton, Kenneth H., additional, Maximova, Olga, additional, Ragnarsdóttir, Sunna Björk, additional, Sejr, Mikael K., additional, Simakova, Uliana, additional, Spiridonov, Vassily, additional, Wegeberg, Susse, additional, Winding, Mie H. S., additional, and Duarte, Carlos M., additional

Published
2021
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164. Additional file 1 of Feasibility and preliminary efficacy of a combined virtual reality, robotics and electrical stimulation intervention in upper extremity stroke rehabilitation

Author

Norouzi-Gheidari, Nahid, Archambault, Philippe S., Monte-Silva, Katia, Kairy, Dahlia, Sveistrup, Heidi, Trivino, Michael, Levin, Mindy F., and Marie-Hélène Milot

Subjects
sense organs, skin and connective tissue diseases
Abstract

Additional file 1. Supplementary Table A: Changes in score between baseline and post-treatment measurements. The results are illustrated in Figures 3 to 6.

Published
2021
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165. Biophysical and Ecological Overview of the North Water and Adjacent Areas

Author

Hornby, Claire, Scharffenberg, Kevin, Melling, Humfrey, Archambault, Philippe, Dawson, Kathleen, Geoffroy, Maxime, Hamilton, Andrew, Henderson, Laura, Stewart, Stacy, Holm, Jodi, Hrenchuk, Claire, Johansen, Kasper Lambert, Johnson, Michael, Lacho, Christine, Michel, Christine, Mosbech, Anders, Myers, Paul, Nielsen, Nynne, Papakyriakou, Tim, Remnant, Richard, Ugarte, Fernando, Wang, Feiyue, and Worden, Elizabeth

Published
2021

166. Functional trait‐based approaches as a common framework for aquatic ecologists

Author

Martini, Séverine, Larras, Floriane, Boye, Aurelien, Faure, Emile, Aberle, Nicole, Archambault, Philippe, Bacouillard, Lise, Beisner, Beatrix E, Bittner, Lucie, Castella, Emmanuel, Danger, Michael, Gauthier, Olivier, Karp‐boss, Lee, Lombard, Fabien, Maps, Frédéric, Stemmann, Lars, Thiébaut, Eric, Usseglio‐polatera, Philippe, Vogt, Meike, Laviale, Martin, Ayata, Sakina‐dorothée, Martini, Séverine, Larras, Floriane, Boye, Aurelien, Faure, Emile, Aberle, Nicole, Archambault, Philippe, Bacouillard, Lise, Beisner, Beatrix E, Bittner, Lucie, Castella, Emmanuel, Danger, Michael, Gauthier, Olivier, Karp‐boss, Lee, Lombard, Fabien, Maps, Frédéric, Stemmann, Lars, Thiébaut, Eric, Usseglio‐polatera, Philippe, Vogt, Meike, Laviale, Martin, and Ayata, Sakina‐dorothée

Abstract

Aquatic ecologists face challenges in identifying the general rules of the functioning of ecosystems. A common framework, including freshwater, marine, benthic, and pelagic ecologists, is needed to bridge communication gaps and foster knowledge sharing. This framework should transcend local specificities and taxonomy in order to provide a common ground and shareable tools to address common scientific challenges. Here, we advocate the use of functional trait‐based approaches (FTBAs) for aquatic ecologists and propose concrete paths to go forward. Firstly, we propose to unify existing definitions in FTBAs to adopt a common language. Secondly, we list the numerous databases referencing functional traits for aquatic organisms. Thirdly, we present a synthesis on traditional as well as recent promising methods for the study of aquatic functional traits, including imaging and genomics. Finally, we conclude with a highlight on scientific challenges and promising venues for which FTBAs should foster opportunities for future research. By offering practical tools, our framework provides a clear path forward to the adoption of trait‐based approaches in aquatic ecology.

Published
2021
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167. Determining the Ecological Status of Benthic Coastal Communities: A Case in an Anthropized Sub-Arctic Area

Author

Dreujou, Elliot, Desroy, Nicolas, Carrière, Julie, Tréau De Coeli, Lisa, Mckindsey, Christopher W., Archambault, Philippe, Dreujou, Elliot, Desroy, Nicolas, Carrière, Julie, Tréau De Coeli, Lisa, Mckindsey, Christopher W., and Archambault, Philippe

Abstract

With the widespread influence of human activities on marine ecosystems, evaluation of ecological status provides valuable information for conservation initiatives and sustainable development. To this end, many environmental indicators have been developed worldwide and there is a growing need to evaluate their performance by calculating ecological status in a wide range of ecosystems at multiple spatial and temporal scales. This study calculated and contrasted sixteen indicators of ecological status from three methodological categories: abundance measures, diversity parameters and characteristic species. This selection was applied to coastal benthic ecosystems at Sept-Îles (Québec, Canada), an important industrial harbor area in the Gulf of St. Lawrence, and related to habitat parameters (organic matter, grain size fractions, and heavy metal concentrations). Nearly all indicators highlighted a generally good ecological status in the study area, where communities presented an unperturbed profile with high taxa and functional diversities and without the dominance of opportunistic taxa. Some correlations with habitat parameters were detected, especially with heavy metals, and bootstrap analyses indicated quite robust results. This study provides valuable information on the application of environmental indicators in Canadian coastal ecosystems, along with insights on their use for environmental assessments.

Published
2021
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168. Sediment reworking by the burrowing polychaete Hediste diversicolor modulated by environmental and biological factors across the temperate North Atlantic. A tribute to Gaston Desrosiers

Author

Gilbert, Franck, Kristensen, Erik, Aller, Robert C., Banta, Gary T., Archambault, Philippe, Belley, Rénald, Bellucci, Luca G., Calder, Lois, Cuny, Philippe, De Montaudouin, Xavier, Eriksson, Susanne P., Forster, Stefan, Gillet, Patrick, Godbold, Jasmin A., Glud, Ronnie N., Gunnarsson, Jonas, Hulth, Stefan, Lindqvist, Stina, Maire, Anthony, Michaud, Emma, Norling, Karl, Renz, Judith, Solan, Martin, Townsend, Michael, Volkenborn, Nils, Widdicombe, Stephen, Stora, Georges, Gilbert, Franck, Kristensen, Erik, Aller, Robert C., Banta, Gary T., Archambault, Philippe, Belley, Rénald, Bellucci, Luca G., Calder, Lois, Cuny, Philippe, De Montaudouin, Xavier, Eriksson, Susanne P., Forster, Stefan, Gillet, Patrick, Godbold, Jasmin A., Glud, Ronnie N., Gunnarsson, Jonas, Hulth, Stefan, Lindqvist, Stina, Maire, Anthony, Michaud, Emma, Norling, Karl, Renz, Judith, Solan, Martin, Townsend, Michael, Volkenborn, Nils, Widdicombe, Stephen, and Stora, Georges

Abstract

Particle mixing and irrigation of the seabed by benthic fauna (bioturbation) have major impacts on ecosystem functions such as remineralization of organic matter and sediment-water exchange. As a tribute to Prof. Gaston Desrosiers by the Nereis Park association, eighteen laboratories carried out a collaborative experiment to acquire a global snapshot of particle reworking by the polychaete Hediste diversicolor at 16 sites surrounding the Northern Atlantic. Organisms and soft sediments were collected during May – July at different geographical locations and, using a common laboratory protocol, particulate fluorescent tracers (‘luminophores’) were used to quantify particle transport over a 10-day period. Particle mixing was quantified using the maximum penetration depth of tracers (MPD), particle diffusive coefficients (Db), and non-local transport coefficients (r). Non-local coefficients (reflecting centimeter scale transport steps) ranged from 0.4 to 15 yr−1, and were not correlated across sites with any measured biological (biomass, biovolume) or environmental parameters (temperature, grain size, organic matter). Maximum penetration depths (MPD) averaged ~10.7 cm (6.5–14.5 cm), and were similar to the global average bioturbation depth inferred from short-lived radiochemical tracers. MPD was also not correlated with measures of size (individual biomass), but increased with grain size and decreased with temperature. Biodiffusion (Db) correlated inversely with individual biomass (size) and directly with temperature over the environmental range (Q10 ~ 1.7; 5–21 °C). The transport data were comparable in magnitude to rates reported for localized H. diversicolor populations of similar size, and confirmed some but not all correlations between sediment reworking and biological and environmental variables found in previous studies. The results imply that measures of particle reworking activities of a species from a single location can be generally extrapolated to different

Published
2021
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169. Efficiency of sympagic-benthic coupling revealed by analyses of n-3 fatty acids, IP25 and other highly branched isoprenoids in two filter-feeding Arctic benthic molluscs: Mya truncata and Serripes groenlandicus

Author

Amiraux, Rémi, Archambault, Philippe, Moriceau, Brivaela, Lemire, Mélanie, Babin, Marcel, Memery, Laurent, Massé, Guillaume, Tremblay, Jean-eric, Amiraux, Rémi, Archambault, Philippe, Moriceau, Brivaela, Lemire, Mélanie, Babin, Marcel, Memery, Laurent, Massé, Guillaume, and Tremblay, Jean-eric

Abstract

The aim of this work was to determine the impact of sympagic (ice-associated) algal primary production on the quality of Arctic filter-feeding bivalves. For this purpose, we investigated the sea ice production of lipids (including omega−3 polyunsaturated fatty acids (n-3 PUFA) and highly branched isoprenoids (HBI)), as well as their subsequent incorporation into the truncate softshell clam (Mya truncata) and the Greenland cockle (Serripes groenlandicus) during the melting periods of two consecutive years in Baffin Bay. Lipid and primary production exhibited seasonal variability and overall contrasts between the two years as a result of distinct physical forcings and the ensuing biological responses. Whilst less productive in terms of total lipids or chlorophyll a, Spring 2016 was more productive than Spring 2015 for n-3 PUFA, which are essential for benthic fauna. The sea ice diatom HBI biomarker IP25 was quantified in sea ice from both years. Interestingly, such production was preceded by a production of the hitherto ‘pelagic’ biomarker, HBI III, in sea ice. In bivalves, HBI contents and correlations confirmed the tightness of the Arctic sympagic-benthic coupling and highlighted that S. groenlandicus can be used as a sentinel species for assessing the degree of this coupling. The confirmation that bivalves incorporate sea-ice derived HBI III and not only IP25, may introduce uncertainties into the use of some HBI-based indices. Monitoring of the fatty acid contents of bivalves allowed identification of their spawning periods and suggests that M. truncata did not store enough n-3 PUFA to sustain its reproductive effort.

Published
2021
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170. Global COVID-19 lockdown highlights humans as both threats and custodians of the environment

Author

Bates, Amanda E., Primack, Richard B., Biggar, Brandy S., Bird, Thomas J., Clinton, Mary E., Command, Rylan J., Richards, Cerren, Shellard, Marc, Geraldi, Nathan R., Vergara, Valeria, Acevedo-Charry, Orlando, Colón-Piñeiro, Zuania, Ocampo, David, Ocampo-Peñuela, Natalia, Sánchez-Clavijo, Lina M., Adamescu, Cristian M., Cheval, Sorin, Racoviceanu, Tudor, Adams, Matthew D., Kalisa, Egide, Kuuire, Vincent Z., Aditya, Vikram, Anderwald, Pia, Wiesmann, Samuel, Wipf, Sonja, Badihi, Gal, Henderson, Matthew G., Loetscher, Hanspeter, Baerenfaller, Katja, Benedetti-Cecchi, Lisandro, Bulleri, Fabio, Bertocci, Lacopo, Maggi, Elena, Rindi, Luca, Ravaglioli, Chiara, Boerder, Kristina, Bonnel, Julien, Mathias, Delphine, Archambault, Philippe, Chauvaud, Laurent, Braun, Camrin D., Thorrold, Simon R., Brownscombe, Jacob W., Midwood, Jonathan D., Boston, Christine M., Brooks, Jill L., Cooke, Steven J., China, Victor, Roll, Uri, Belmaker, Jonathan, Zvuloni, Assaf, Coll, Marta, Ortega, Miquel, Connors, Brendan, Lacko, Lisa, Jayathilake, Dinusha R.M., Costello, Mark J., Crimmins, Theresa M., Barnett, LoriAnne, Denny, Ellen G., Gerst, Katharine L., Marsh, R.L., Posthumus, Erin E., Rodriguez, Reilly, Rosemartin, Alyssa, Schaffer, Sara N., Switzer, Jeff R., Wong, Kevin, Cunningham, Susan J., Sumasgutner, Petra, Amar, Arjun, Thomson, Robert L., Stofberg, Miqkayla, Hofmeyr, Sally, Suri, Jessleena, Stuart-Smith, Rick D., Day, Paul B., Edgar, Graham J., Cooper, Antonia T., Cabrera De Leo, Fabio, Garner, Grant, Des Brisay, Paulson G., Schrimpf, Michael B., Koper, Nicola, Diamond, Michael S., Dwyer, Ross G., Baker, Cameron J, Franklin, Craig E., Efrat, Ron, Berger-Tal, Oded, Hatzofe, Ohad, Eguíluz, Víctor M., Rodríguez, Jorge P., Fernández-Gracia, Juan, Elustondo, David, Calatayud, Vicent, English, Philina A., Archer, Stephanie K., Dudas, Sarah E., Haggarty, Dana R., Gallagher, Austin J., Shea, Brandan D., Shipley, Oliver N., Gilby, Ben L., Ballantyne, Jasmine, Olds, Andrew D., Henderson, Christopher J., Schlacher, Thomas A., Halliday, William D., Brown, Nicholas A.W., Woods, Mackenzie B., Balshine, Sigal, Juanes, Francis, Rider, Mitchell J., Albano, Patricia S., Hammerschlag, Neil, Hays, Graeme C., Esteban, Nicole, Pan, Yuhang, He, Guojun, Tanaka, Takanao, Hensel, Marc J.S., Orth, Robert J., Patrick, Christopher J., Hentati-Sundberg, Jonas, Olsson, Olof, Hessing-Lewis, Margot L., Higgs, Nicholas D., McMahon, Clive R., Harcourt, Rob, Guinet, Christophe, Hirsch, Sarah E., Perrault, Justin R., Hoover, Shelby R., Reilly, Jennifer D., Hobaiter, Catherine, Gruber, Thibaud, Huveneers, Charlie, Udyawer, Vinay, Clarke, Thomas M., Kroesen, Laura P., Hik, David S., Cherry, Seth G., Del Bel Belluz, Justin A., Jackson, Jennifer M., Lai, Shengjie, Lamb, Clayton T., LeClair, Gregory D., Parmelee, Jeffrey R., Chatfield, Matthew W.H., Frederick, Cheryl A., Lee, Sangdon, Park, Hyomin, Choi, Jaein, LeTourneux, Frédéric, Grandmont, Thierry, Dulude de-Broin, Frédéric, Bêty, Joël, Gauthier, Gilles, Legagneux, Pierre, Lewis, Jesse S., Haight, Jeffrey, Liu, Zhu, Lyon, Jarod P., Hale, Robin, D'Silva, Dallas, MacGregor-Fors, Ian, Arbelaez-Cortes, Enrique, Estela, Felipe A., Sánchez-Sarria, Camilo E., García-Arroyo, Michelle, Aguirre-Samboní, Giann K., Franco Morales, Juan C., Malamud, Shahar, Gavriel, Tal, Buba, Yehezkel, Salingré, Shira, Lazarus, Mai, Yahel, Ruthy, Ben Ari, Yigael, Miller, Eyal, Sade, Rotem, Lavian, Guy, Birman, Ziv, Gury, Manor, Baz, Harel, Baskin, Ilia, Penn, Alon, Dolev, Amit, Licht, Ogen, Karkom, Tabi, Davidzon, Sharon, Berkovitch, Avi, Yaakov, Ofer, Manenti, Raoul, Mori, Emiliano, Ficetola, Gentile Francesco, Lunghi, Enrico, March, David, Godley, Brendan J., Martin, Cecilia, Mihaly, Steven F., Barclay, David R., Thomson, Dugald J.M., Dewey, Richard, Bedard, Jeannette, Miller, Aroha, Dearden, Amber, Chapman, Jennifer, Dares, Lauren, Borden, Laura, Gibbs, Donna, Schultz, Jessica, Sergeenko, Nikita, Francis, Fiona, Weltman, Amanda, Moity, Nicolas, Ramírez-González, Jorge, Mucientes, Gonzalo, Alonso-Fernández, Alexandre, Namir, Itai, Bar-Massada, Avi, Chen, Ron, Yedvab, Shmulik, Okey, Thomas A., Oppel, Steffen, Arkumarev, Volen, Bakari, Samuel, Dobrev, Vladimir, Saravia-Mullin, Victoria, Bounas, Anastasios, Kret, Elzbieta, Mengistu, Solomon, Pourchier, Cloé, Ruffo, Alazar, Tesfaye, Million, Wondafrash, Mengistu, Nikolov, Stoyan C., Palmer, Charles, Sileci, Lorenzo, Rex, Patrick T., Lowe, Christopher G., Peters, Francesc, Pine, Matthew K., Radford, Craig A, Wilson, Louise, McWhinnie, Lauren, Scuderi, Alessia, Jeffs, Andrew G., Prudic, Kathleen L., Larrivée, Maxim, McFarland, Kent P., Solis, Rodrigo, Hutchinson, Rebecca A., Queiroz, Nuno, Furtado, Miguel A., Sims, David W., Southall, Emily, Quesada-Rodriguez, Claudio A., Diaz-Orozco, Jessica P., Rodgers, Ku'ulei S., Severino, Sarah J.L., Graham, Andrew, Stefanak, Matthew P., Madin, Elizabeth M.P., Ryan, Peter G., Maclean, Kyle, Weideman, Eleanor A., Sekercioğlu, Cağan H., Kittelberger, Kyle D., Kusak, Josip, Seminoff, Jeffrey A., Hanna, Megan E., Shimada, Takahiro, Meekan, Mark G., Smith, Martin, Mokhatla, Mohlamatsane M., Soh, Malcolm C.K., Pang, Roanna Y.T., Ng, Breyl X.K., Lee, Benjamin P.Y.-H., Loo, Adrian H.B., Er, Kenneth B.H., Souza, Gabriel B.G., Stallings, Christopher D., Curtis, Joseph S., Faletti, Meaghan E., Peake, Jonathan A., Schram, Michael J., Wall, Kara R., Terry, Carina, Rothendler, Matt, Zipf, Lucy, Ulloa, Juan Sebastián, Hernández-Palma, Angélica, Gómez-Valencia, Bibiana, Cruz-Rodríguez, Cristian, Herrera-Varón, Yenifer, Roa, Margarita, Rodríguez-Buriticá, Susana, Ochoa-Quintero, Jose Manuel, Vardi, Reut, Vázquez, Víctor, Requena-Mesa, Christian, Warrington, Miyako H., Taylor, Michelle E., Woodall, Lucy C., Stefanoudis, Paris V., Zhang, Xiangliang, Yang, Qiang, Zukerman, Yuval, Sigal, Zehava, Ayali, Amir, Clua, Eric, Carzon, Pamela, Seguine, Clementine, Corradini, Andrea, Pedrotti, Luca, Foley, Catherine M., Gagnon, Catherine Alexandra, Panipakoochoo, Elijah, Milanes, Celene B., Botero, Camilo M., Velázquez, Yunior R., Milchakova, Nataliya A., Morley, Simon A., Martin, Stephanie M., Nanni, Veronica, Otero, Tania, Wakeling, Julia, Abarro, Sarah, Piou, Cyril, et al., Bates, Amanda E., Primack, Richard B., Biggar, Brandy S., Bird, Thomas J., Clinton, Mary E., Command, Rylan J., Richards, Cerren, Shellard, Marc, Geraldi, Nathan R., Vergara, Valeria, Acevedo-Charry, Orlando, Colón-Piñeiro, Zuania, Ocampo, David, Ocampo-Peñuela, Natalia, Sánchez-Clavijo, Lina M., Adamescu, Cristian M., Cheval, Sorin, Racoviceanu, Tudor, Adams, Matthew D., Kalisa, Egide, Kuuire, Vincent Z., Aditya, Vikram, Anderwald, Pia, Wiesmann, Samuel, Wipf, Sonja, Badihi, Gal, Henderson, Matthew G., Loetscher, Hanspeter, Baerenfaller, Katja, Benedetti-Cecchi, Lisandro, Bulleri, Fabio, Bertocci, Lacopo, Maggi, Elena, Rindi, Luca, Ravaglioli, Chiara, Boerder, Kristina, Bonnel, Julien, Mathias, Delphine, Archambault, Philippe, Chauvaud, Laurent, Braun, Camrin D., Thorrold, Simon R., Brownscombe, Jacob W., Midwood, Jonathan D., Boston, Christine M., Brooks, Jill L., Cooke, Steven J., China, Victor, Roll, Uri, Belmaker, Jonathan, Zvuloni, Assaf, Coll, Marta, Ortega, Miquel, Connors, Brendan, Lacko, Lisa, Jayathilake, Dinusha R.M., Costello, Mark J., Crimmins, Theresa M., Barnett, LoriAnne, Denny, Ellen G., Gerst, Katharine L., Marsh, R.L., Posthumus, Erin E., Rodriguez, Reilly, Rosemartin, Alyssa, Schaffer, Sara N., Switzer, Jeff R., Wong, Kevin, Cunningham, Susan J., Sumasgutner, Petra, Amar, Arjun, Thomson, Robert L., Stofberg, Miqkayla, Hofmeyr, Sally, Suri, Jessleena, Stuart-Smith, Rick D., Day, Paul B., Edgar, Graham J., Cooper, Antonia T., Cabrera De Leo, Fabio, Garner, Grant, Des Brisay, Paulson G., Schrimpf, Michael B., Koper, Nicola, Diamond, Michael S., Dwyer, Ross G., Baker, Cameron J, Franklin, Craig E., Efrat, Ron, Berger-Tal, Oded, Hatzofe, Ohad, Eguíluz, Víctor M., Rodríguez, Jorge P., Fernández-Gracia, Juan, Elustondo, David, Calatayud, Vicent, English, Philina A., Archer, Stephanie K., Dudas, Sarah E., Haggarty, Dana R., Gallagher, Austin J., Shea, Brandan D., Shipley, Oliver N., Gilby, Ben L., Ballantyne, Jasmine, Olds, Andrew D., Henderson, Christopher J., Schlacher, Thomas A., Halliday, William D., Brown, Nicholas A.W., Woods, Mackenzie B., Balshine, Sigal, Juanes, Francis, Rider, Mitchell J., Albano, Patricia S., Hammerschlag, Neil, Hays, Graeme C., Esteban, Nicole, Pan, Yuhang, He, Guojun, Tanaka, Takanao, Hensel, Marc J.S., Orth, Robert J., Patrick, Christopher J., Hentati-Sundberg, Jonas, Olsson, Olof, Hessing-Lewis, Margot L., Higgs, Nicholas D., McMahon, Clive R., Harcourt, Rob, Guinet, Christophe, Hirsch, Sarah E., Perrault, Justin R., Hoover, Shelby R., Reilly, Jennifer D., Hobaiter, Catherine, Gruber, Thibaud, Huveneers, Charlie, Udyawer, Vinay, Clarke, Thomas M., Kroesen, Laura P., Hik, David S., Cherry, Seth G., Del Bel Belluz, Justin A., Jackson, Jennifer M., Lai, Shengjie, Lamb, Clayton T., LeClair, Gregory D., Parmelee, Jeffrey R., Chatfield, Matthew W.H., Frederick, Cheryl A., Lee, Sangdon, Park, Hyomin, Choi, Jaein, LeTourneux, Frédéric, Grandmont, Thierry, Dulude de-Broin, Frédéric, Bêty, Joël, Gauthier, Gilles, Legagneux, Pierre, Lewis, Jesse S., Haight, Jeffrey, Liu, Zhu, Lyon, Jarod P., Hale, Robin, D'Silva, Dallas, MacGregor-Fors, Ian, Arbelaez-Cortes, Enrique, Estela, Felipe A., Sánchez-Sarria, Camilo E., García-Arroyo, Michelle, Aguirre-Samboní, Giann K., Franco Morales, Juan C., Malamud, Shahar, Gavriel, Tal, Buba, Yehezkel, Salingré, Shira, Lazarus, Mai, Yahel, Ruthy, Ben Ari, Yigael, Miller, Eyal, Sade, Rotem, Lavian, Guy, Birman, Ziv, Gury, Manor, Baz, Harel, Baskin, Ilia, Penn, Alon, Dolev, Amit, Licht, Ogen, Karkom, Tabi, Davidzon, Sharon, Berkovitch, Avi, Yaakov, Ofer, Manenti, Raoul, Mori, Emiliano, Ficetola, Gentile Francesco, Lunghi, Enrico, March, David, Godley, Brendan J., Martin, Cecilia, Mihaly, Steven F., Barclay, David R., Thomson, Dugald J.M., Dewey, Richard, Bedard, Jeannette, Miller, Aroha, Dearden, Amber, Chapman, Jennifer, Dares, Lauren, Borden, Laura, Gibbs, Donna, Schultz, Jessica, Sergeenko, Nikita, Francis, Fiona, Weltman, Amanda, Moity, Nicolas, Ramírez-González, Jorge, Mucientes, Gonzalo, Alonso-Fernández, Alexandre, Namir, Itai, Bar-Massada, Avi, Chen, Ron, Yedvab, Shmulik, Okey, Thomas A., Oppel, Steffen, Arkumarev, Volen, Bakari, Samuel, Dobrev, Vladimir, Saravia-Mullin, Victoria, Bounas, Anastasios, Kret, Elzbieta, Mengistu, Solomon, Pourchier, Cloé, Ruffo, Alazar, Tesfaye, Million, Wondafrash, Mengistu, Nikolov, Stoyan C., Palmer, Charles, Sileci, Lorenzo, Rex, Patrick T., Lowe, Christopher G., Peters, Francesc, Pine, Matthew K., Radford, Craig A, Wilson, Louise, McWhinnie, Lauren, Scuderi, Alessia, Jeffs, Andrew G., Prudic, Kathleen L., Larrivée, Maxim, McFarland, Kent P., Solis, Rodrigo, Hutchinson, Rebecca A., Queiroz, Nuno, Furtado, Miguel A., Sims, David W., Southall, Emily, Quesada-Rodriguez, Claudio A., Diaz-Orozco, Jessica P., Rodgers, Ku'ulei S., Severino, Sarah J.L., Graham, Andrew, Stefanak, Matthew P., Madin, Elizabeth M.P., Ryan, Peter G., Maclean, Kyle, Weideman, Eleanor A., Sekercioğlu, Cağan H., Kittelberger, Kyle D., Kusak, Josip, Seminoff, Jeffrey A., Hanna, Megan E., Shimada, Takahiro, Meekan, Mark G., Smith, Martin, Mokhatla, Mohlamatsane M., Soh, Malcolm C.K., Pang, Roanna Y.T., Ng, Breyl X.K., Lee, Benjamin P.Y.-H., Loo, Adrian H.B., Er, Kenneth B.H., Souza, Gabriel B.G., Stallings, Christopher D., Curtis, Joseph S., Faletti, Meaghan E., Peake, Jonathan A., Schram, Michael J., Wall, Kara R., Terry, Carina, Rothendler, Matt, Zipf, Lucy, Ulloa, Juan Sebastián, Hernández-Palma, Angélica, Gómez-Valencia, Bibiana, Cruz-Rodríguez, Cristian, Herrera-Varón, Yenifer, Roa, Margarita, Rodríguez-Buriticá, Susana, Ochoa-Quintero, Jose Manuel, Vardi, Reut, Vázquez, Víctor, Requena-Mesa, Christian, Warrington, Miyako H., Taylor, Michelle E., Woodall, Lucy C., Stefanoudis, Paris V., Zhang, Xiangliang, Yang, Qiang, Zukerman, Yuval, Sigal, Zehava, Ayali, Amir, Clua, Eric, Carzon, Pamela, Seguine, Clementine, Corradini, Andrea, Pedrotti, Luca, Foley, Catherine M., Gagnon, Catherine Alexandra, Panipakoochoo, Elijah, Milanes, Celene B., Botero, Camilo M., Velázquez, Yunior R., Milchakova, Nataliya A., Morley, Simon A., Martin, Stephanie M., Nanni, Veronica, Otero, Tania, Wakeling, Julia, Abarro, Sarah, Piou, Cyril, and et al.

Abstract

The global lockdown to mitigate COVID-19 pandemic health risks has altered human interactions with nature. Here, we report immediate impacts of changes in human activities on wildlife and environmental threats during the early lockdown months of 2020, based on 877 qualitative reports and 332 quantitative assessments from 89 different studies. Hundreds of reports of unusual species observations from around the world suggest that animals quickly responded to the reductions in human presence. However, negative effects of lockdown on conservation also emerged, as confinement resulted in some park officials being unable to perform conservation, restoration and enforcement tasks, resulting in local increases in illegal activities such as hunting. Overall, there is a complex mixture of positive and negative effects of the pandemic lockdown on nature, all of which have the potential to lead to cascading responses which in turn impact wildlife and nature conservation. While the net effect of the lockdown will need to be assessed over years as data becomes available and persistent effects emerge, immediate responses were detected across the world. Thus, initial qualitative and quantitative data arising from this serendipitous global quasi-experimental perturbation highlights the dual role that humans play in threatening and protecting species and ecosystems. Pathways to favorably tilt this delicate balance include reducing impacts and increasing conservation effectiveness.

Published
2021

171. Kelp in the Eastern Canadian Arctic: current and future predictions of habitat suitability and cover

Author

Goldsmit, Jesica, Schlegel, Robert W., Filbee-Dexter, Karen, MacGregor, Kathleen A., Johnson, Ladd E., Mundy, Christopher J., Savoie, Amanda M., McKindsey, Christopher W., Howland, Kimberly L., Archambault, Philippe, Goldsmit, Jesica, Schlegel, Robert W., Filbee-Dexter, Karen, MacGregor, Kathleen A., Johnson, Ladd E., Mundy, Christopher J., Savoie, Amanda M., McKindsey, Christopher W., Howland, Kimberly L., and Archambault, Philippe

Abstract

© The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Goldsmit, J., Schlegel, R. W., Filbee-Dexter, K., MacGregor, K. A., Johnson, L. E., Mundy, C. J., Savoie, A. M., McKindsey, C. W., Howland, K. L., & Archambault, P. Kelp in the Eastern Canadian Arctic: current and future predictions of habitat suitability and cover. Frontiers in Marine Science, 18, (2021): 742209. https://doi.org/10.3389/fmars.2021.742209, Climate change is transforming marine ecosystems through the expansion and contraction of species’ ranges. Sea ice loss and warming temperatures are expected to expand habitat availability for macroalgae along long stretches of Arctic coastlines. To better understand the current distribution of kelp forests in the Eastern Canadian Arctic, kelps were sampled along the coasts for species identifications and percent cover. The sampling effort was supplemented with occurrence records from global biodiversity databases, searches in the literature, and museum records. Environmental information and occurrence records were used to develop ensemble models for predicting habitat suitability and a Random Forest model to predict kelp cover for the dominant kelp species in the region – Agarum clathratum, Alaria esculenta, and Laminariaceae species (Laminaria solidungula and Saccharina latissima). Ice thickness, sea temperature and salinity explained the highest percentage of kelp distribution. Both modeling approaches showed that the current extent of arctic kelps is potentially much greater than the available records suggest. These modeling approaches were projected into the future using predicted environmental data for 2050 and 2100 based on the most extreme emission scenario (RCP 8.5). The models agreed that predicted distribution of kelp in the Eastern Canadian Arctic is likely to expand to more northern locations under future emissions scenarios, with the exception of the endemic arctic kelp L. solidungula, which is more likely to lose a significant proportion of suitable habitat. However, there were differences among species regarding predicted cover for both current and future projections. Notwithstanding model-specific variation, it is evident that kelps are widespread throughout the area and likely contribute significantly to the functioning of current Arctic ecosystems. Our results emphasize the importance of kelp in Arctic ecosystems and the underestimation of their p, This work was supported by ArcticNet (P101 ArcticKelp), Fisheries and Oceans Canada Arctic Climate Change Adaptation Strategy, Arctic Science and Aquatic Invasive Species Monitoring and Research Funds, the Natural Sciences and Engineering Research Council (NSERC), NRCan Polar Continental Shelf Program Support, Canadian Aquatic Invasive Species Network (CAISN), the Nunavut Marine Region Wildlife Management Board (NWMB), Quebec-Ocean, and the Ocean Frontier Institute through an award from the Canada First Research Excellence Fund, the Marine Environmental Observation, Prediction and Response Network of Centres of Excellence’s (MEOPAR-NCE) Southampton Island Marine Ecosystem Project, and the Belmont Forum–BiodivERsA’s De-icing of Arctic Coasts: critical or new opportunities for marine biodiversity and Ecosystem Services (ACCES). KF-D was supported by the Australian Research Council (DE190100692).

Published
2021

172. Oceans and human health : navigating changes on Canada’s coasts

Author

Archambault, Philippe, Batal, Malek, Kenny, Tiff-Annie, Chan, Hing Man, Little, Matthew, Cheun, William, Plante, Steve, Eddy, Tyler D., Ayotte, Pierre, Ota, Yoshitaka, Pétrin-Desrosiers, Claudel, Poitras, Julien, Polanco, Fernando, Singh, Gerald, Lemire, Mélanie, Archambault, Philippe, Batal, Malek, Kenny, Tiff-Annie, Chan, Hing Man, Little, Matthew, Cheun, William, Plante, Steve, Eddy, Tyler D., Ayotte, Pierre, Ota, Yoshitaka, Pétrin-Desrosiers, Claudel, Poitras, Julien, Polanco, Fernando, Singh, Gerald, and Lemire, Mélanie

Abstract

Ocean conditions can affect human health in a variety of ways that are often overlooked and unappreciated. Oceans adjacent to Canada are affected by many anthropogenic stressors, with implications for human health and well-being. Climate change further escalates these pressures and can expose coastal populations to unique health hazards and distressing conditions. However, current research efforts, education or training curriculums, and policies in Canada critically lack explicit consideration of these ocean–public health linkages. The objective of this paper is to present multiple disciplinary perspectives from academics and health practitioners to inform the development of future directions for research, capacity development, and policy and practice at the interface of oceans and human health in Canada. We synthesize major ocean and human health linkages in Canada, and identify climate-sensitive drivers of change, drawing attention to unique considerations in Canada. To support effective, sustained, and equitable collaborations at the nexus of oceans and human health, we recommend the need for progress in three critical areas: (i) holistic worldviews and perspectives, (ii) capacity development, and (iii) structural supports. Canada can play a key role in supporting the global community in addressing the health challenges of climate and ocean changes.

Published
2021

176. Towards a pan-Arctic inventory of the species diversity of the macro- and megabenthic fauna of the Arctic shelf seas

Author

Piepenburg, Dieter, Archambault, Philippe, Ambrose, Jr., William G., Blanchard, Arny L., Bluhm, Bodil A., Carroll, Michael L., Conlan, Kathleen E., Cusson, Mathieu, Feder, Howard M., Grebmeier, Jacqueline M., Jewett, Stephen C., Lévesque, Mélanie, Petryashev, Victor V., Sejr, Mikael K., Sirenko, Boris I., and Włodarska-Kowalczuk, Maria

Published
2011
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177. Influence of suspended and off-bottom mussel culture on the sea bottom and benthic habitats: a review

Author

McKindsey, Christopher W., Archambault, Philippe, Callier, Myriam D., and Olivier, Frederic

Subjects
Mussels -- Environmental aspects, Fish-culture -- Research, Aquaculture -- Research, Benthos -- Environmental aspects, Ocean bottom -- Environmental aspects, Zoology and wildlife conservation
Abstract

Aquaculture is the fastest growing sector of the food industry, raising concerns about the influence of this activity on the environment. We take a holistic approach to review off-bottom and suspended mussel culture effects on the benthic environment and benthic communities. Both longline and 'bouchot' mussel culture add much physical structure (infrastructure and mussels) to the environment, altering hydrosedimentary processes by modifying currents and increasing sedimentation locally, and providing habitat for many benthic organisms. Biodeposition from mussels and these organisms increases benthic organic loading and linked biogeochemical processes to influence [O.sub.2], pH, redox potentials, dissolved sulphides, and other sediment parameters, benthic respiration and nutrient fluxes, and benthic infaunal communities. Mussel culture may also influence seagrasses and algae, although this has not been well-studied. Far-field effects on the benthos may occur through a number of mechanisms, including aggregation of epibenthic macrofauna in culture sites, alteration of plankton communities, and the enhancement of exotic and indigenous pest species owing to the addition of physical structure to the environment. Quantitative relationships between farming level and benthic influences are lacking, making predictions of effects difficult. L'aquaculture est le secteur de l'industrie alimentaire dont la croissance est la plus rapide. Dans un contexte de developpement durable, l'influence de cette activite sur l'environnement doit etre quantifiee. Nous presentons une synthese des travaux concernant les impacts de la mytiliculture au-dessus du substrat et en suspension sur les communautes benthiques et leur biotope. La mytiliculture (filieres ou bouchots) introduit dans le milieu des structures physiques--structures d'elevage et moules--qui alterent la dynamique hydrosedimentaire (modification des courants, augmentation locale des taux de sedimentation) et generent des habitats favorables a de nombreux organismes benthiques. Les biodepots rejetes par les moules et les organismes associes accroissent l'eutrophisation et les processus biogeochimiques, modifiant la demande en [O.sub.2], le pH, les potentiels redox, les concentrations en sulfures dissous, les flux de C[O.sub.2] et de nutriments a l'interface eausediment, ainsi que les assemblages endofauniques. La mytiliculture peut aussi modifier la dynamique des herbiers et des macroalgues, cependant ces effets restent peu documentes. A plus large echelle, les effets sur le benthos sont lies notamment aux concentrations des epibiontes macrobenthiques dans les concessions, aux changements locaux des communautes planctoniques et a la proliferation d'especes invasives ou autres especes nuisibles a cause de l'addition de structures physiques dans le milieu. Les relations quantitatives associant les caracteristiques des fermes mytilicoles et leurs impacts sur le compartiment benthique sont encore peu connues ce qui rend difficile toute prevision des consequences potentielles sur l'environnement., Introduction Aquaculture is the fastest growing sector of the food industry, increasing at a rate of about 8% per year since the 1970s and accounting for 43% of the total [...]

Published
2011
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182. The MALINA oceanographic expedition: how do changes in ice cover, permafrost and UV radiation impact biodiversity and biogeochemical fluxes in the Arctic Ocean?

Author

Massicotte, Philippe, primary, Amon, Rainer M. W., additional, Antoine, David, additional, Archambault, Philippe, additional, Balzano, Sergio, additional, Bélanger, Simon, additional, Benner, Ronald, additional, Boeuf, Dominique, additional, Bricaud, Annick, additional, Bruyant, Flavienne, additional, Chaillou, Gwenaëlle, additional, Chami, Malik, additional, Charrière, Bruno, additional, Chen, Jing, additional, Claustre, Hervé, additional, Coupel, Pierre, additional, Delsaut, Nicole, additional, Doxaran, David, additional, Ehn, Jens, additional, Fichot, Cédric, additional, Forget, Marie-Hélène, additional, Fu, Pingqing, additional, Gagnon, Jonathan, additional, Garcia, Nicole, additional, Gasser, Beat, additional, Ghiglione, Jean-François, additional, Gorsky, Gaby, additional, Gosselin, Michel, additional, Gourvil, Priscillia, additional, Gratton, Yves, additional, Guillot, Pascal, additional, Heipieper, Hermann J., additional, Heussner, Serge, additional, Hooker, Stanford B., additional, Huot, Yannick, additional, Jeanthon, Christian, additional, Jeffrey, Wade, additional, Joux, Fabien, additional, Kawamura, Kimitaka, additional, Lansard, Bruno, additional, Leymarie, Edouard, additional, Link, Heike, additional, Lovejoy, Connie, additional, Marec, Claudie, additional, Marie, Dominique, additional, Martin, Johannie, additional, Martín, Jacobo, additional, Massé, Guillaume, additional, Matsuoka, Atsushi, additional, McKague, Vanessa, additional, Mignot, Alexandre, additional, Miller, William L., additional, Miquel, Juan-Carlos, additional, Mucci, Alfonso, additional, Ono, Kaori, additional, Ortega-Retuerta, Eva, additional, Panagiotopoulos, Christos, additional, Papakyriakou, Tim, additional, Picheral, Marc, additional, Prieur, Louis, additional, Raimbault, Patrick, additional, Ras, Joséphine, additional, Reynolds, Rick A., additional, Rochon, André, additional, Rontani, Jean-François, additional, Schmechtig, Catherine, additional, Schmidt, Sabine, additional, Sempéré, Richard, additional, Shen, Yuan, additional, Song, Guisheng, additional, Stramski, Dariusz, additional, Tachibana, Eri, additional, Thirouard, Alexandre, additional, Tolosa, Imma, additional, Tremblay, Jean-Éric, additional, Vaïtilingom, Mickael, additional, Vaulot, Daniel, additional, Vaultier, Frédéric, additional, Volkman, John K., additional, Xie, Huixiang, additional, Zheng, Guangming, additional, and Babin, Marcel, additional

Published
2021
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184. Characterization of marine microbial communities around an Arctic seabed hydrocarbon seep at Scott Inlet, Baffin Bay

Author

Cramm, Margaret A., primary, Neves, Bárbara de Moura, additional, Manning, Cara C.M., additional, Oldenburg, Thomas B.P., additional, Archambault, Philippe, additional, Chakraborty, Anirban, additional, Cyr-Parent, Annie, additional, Edinger, Evan N., additional, Jaggi, Aprami, additional, Mort, Andrew, additional, Tortell, Philippe, additional, and Hubert, Casey R.J., additional

Published
2021
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185. Highlights from ArcticNet’s Arctic Change 2020 Conference

Author

Barnard, Christine, primary, Dawson, Jackie, additional, Desserud, Heather, additional, Reedman, Alexa, additional, Ducharme, Marc-André, additional, Ropars, Pascale, additional, Levesque, Claude, additional, Demers, Christine, additional, Desmarais, Natalie, additional, and Archambault, Philippe, additional

Published
2021
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186. Mapping the shallow water seabed habitat with the SHOALS

Author

Collin, Antoine, Archambault, Philippe, and Long, Bernard

Subjects
Multivariate analysis -- Methods, Waveforms -- Evaluation, Ocean bottom -- Discovery and exploration, Remote sensing -- Methods, Optical radar -- Usage, Business, Earth sciences, Electronics and electrical industries
Abstract

The Scanning Hydrographic Operational Airborne light detection and ranging (LiDAR) Survey (SHOALS) consists of a bathymetric LiDAR system that provides high-precision measurements of water depth. Although the acquisition is focused on depth accuracy, the return signal, i.e., waveform, contains other relevant information because of integration signatures from the water surface, the water column, and the seabed. This paper highlights the benthic characterization in extracting statistical parameters derived from the bottom backscatter and classifying them. In implementing a specific unsupervised classification, it is significantly proven that the signals derived from habitat, described as statistically homogeneous throughout ground-truth analysis, are similar within an intrahabitat view, whereas they are different between themselves. Index Terms--Habitat classification, light detection and ranging (LiDAR) bathymetry, multivariate analysis, waveform.

Published
2008

187. The BenBioDen database, a global database for meio-, macro- and megabenthic biomass and densities - R code

Author

Stratmann, Tanja, van Oevelen, Dick, Martínez Arbizu, Pedro, Wei, Chih-Lin, Liao, Jian-Xiang, Cusson, Mathieu, Scrosati, Ricardo A., Archambault, Philippe, Snelgrove, Paul V. R., Ramey-Balci, Patricia A., Burd, Brenda J., Kenchington, Ellen, Gilkinson, Kent, Belley, Rénald, and Soetaert, Karline

Abstract

Here, we present the R code used to generate figures 3, 4, 5, 7, and 8 in "The BenBioDen database, a global database for meio-, macro- and megabenthic biomass and densities" Data Descriptor paper (Scientific Data).&nbsp

Published
2020
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188. Assessment of carrying capacity for bivalve mariculture in subtropical and tropical regions: the need for tailored management tools and guidelines

Author

Aubert Anaïs, Archambault Philippe, Aschenbroich Adélaïde, Latchere Oihana, Gaertner Jean‐Claude, and Gaertner‐Mazouni Nabila

Subjects
Ecology, business.industry, Tropics, Subtropics, Management, Monitoring, Policy and Law, Aquatic Science, Fishery, Marine management, Geography, Aquaculture, Sustainability, Carrying capacity, Mariculture, business
Published
2020

189. sj-pdf-1-jrt-10.1177_2055668320926054 - Supplemental material for Changes in arm kinematics of chronic stroke individuals following 'Assist-As-Asked' robot-assisted training in virtual and physical environments: A proof-of-concept study

Author

Norouzi-Gheidari, Nahid, Archambault, Philippe S, and Fung, Joyce

Subjects
FOS: Other engineering and technologies, 99999 Engineering not elsewhere classified
Abstract

Supplemental material, sj-pdf-1-jrt-10.1177_2055668320926054 for Changes in arm kinematics of chronic stroke individuals following “Assist-As-Asked” robot-assisted training in virtual and physical environments: A proof-of-concept study by Nahid Norouzi-Gheidari, Philippe S Archambault and Joyce Fung in Journal of Rehabilitation and Assistive Technologies Engineering

Published
2020
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190. Combining Bow-Ties and BBNs to inform environmental decision-making

Author

Tasman Crowe, Archambault, Philippe, Barbier, Edward, Brannigan, John, Bruen, Michael, Bullock, Craig, Cormier, Roland, Hering, Daniel, Feld, Christian, Gee, Kira, Glynn, Pierre, Gonzalez, Ainhoa, Kannen, Andreas, Kelly-Quinn, Mary, Mack, Leoni, Obst, Matthias, O'connor, Nessa, Penk, Marcin, Piggott, Jeremy, Rettig, Katharina, Schaper, Jürgen, Schertenleib, Katrin, Hansen, Andreas Skriver, and Stenseke, Marie

Published
2020
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192. Influence of suspended scallop cages and mussel lines on pelagic and benthic biogeochemical fluxes in Havre-aux-Maisons Lagoon, Iles-de-la-Madeleine (Quebec, Canada)

Author

Richard, Marion, Archambault, Philippe, Thouzeau, Gerard, McKindsey, Chris W., and Desrosiers, Gaston

Subjects
Quebec -- Environmental aspects, Biogeochemistry -- Evaluation, Mussel fisheries -- Environmental aspects, Benthos -- Observations, Earth sciences
Abstract

Abstract: An in situ experiment was done in July 2004 to test and compare the influence of suspended bivalve cultures (1- and 2-year-old blue mussels (Mytilus edulis) and sea scallops [...]

Published
2007

193. Seafloor biodiversity of Canada's three oceans: patterns, hotspots and potential drivers

Author

Wei, Chih‐Lin, Cusson, Mathieu, Archambault, Philippe, Belley, Renald, Brown, Tanya, Burd, Brenda J., Edinger, Evan, Kenchington, Ellen, Gilkinson, Kent, Lawton, Peter, Link, Heike, Ramey‐Balci, Patricia A., Scrosati, Ricardo A., Snelgrove, Paul V. R., Wei, Chih‐Lin, Cusson, Mathieu, Archambault, Philippe, Belley, Renald, Brown, Tanya, Burd, Brenda J., Edinger, Evan, Kenchington, Ellen, Gilkinson, Kent, Lawton, Peter, Link, Heike, Ramey‐Balci, Patricia A., Scrosati, Ricardo A., and Snelgrove, Paul V. R.

Abstract

Aim We examined the relationships between bathymetry, latitude and energy and the diversity of marine benthic invertebrates across wide environmental ranges of Canada's three oceans. Location Canadian Pacific, Arctic and Atlantic Oceans from the intertidal zone to upper bathyal depths, encompassing 13 marine ecoregions. Methods We compiled 35 benthic datasets that encompass 3,337 taxa (70% identified to species and 21% to genus) from 13,172 samples spanning 6,117 sites. Partitioning the analyses by different gear types, ecoregions or sites, we used Hill numbers to examine spatial patterns in α‐diversity. We used resampling and extrapolation to standardized sampling effort and examined the effects of depth, latitude, chemical energy (export particulate organic carbon [POC] flux), thermal energy (bottom temperature) and seasonality of primary production on the benthic biodiversity. Results The Canadian Arctic harboured the highest benthic diversity (e.g. epifauna and common and dominant infauna species), whereas the lowest diversity was found in the Atlantic. The Puget Trough (Pacific), Beaufort Sea, Arctic Archipelago, Hudson Bay, Northern Labrador and Southern Grand Bank (Atlantic) were the “hotspots" of diversity among the ecoregions. The infauna and epifauna both exhibited hump‐shaped diversity–depth relationships, with peak diversity near shelf breaks; latitude (positively) predicted infaunal diversity, albeit weakly. Food supply, as inferred from primary production and depth, was more important than thermal energy in controlling diversity patterns. Limitations with respect to calculating POC flux in coastal (e.g. terrestrial runoff) and ice‐covered regions or biological interactions may explain the negative POC flux–infaunal diversity relationship. Main Conclusions We show previously unreported diversity hotspots in the Canadian Arctic and in other ecoregions. Our analyses reveal potential controlling mechanisms of large‐scale benthic biodiversity patterns in Ca

Published
2020

194. Reliance of deep-sea benthic macrofauna on ice-derived organic matter highlighted by multiple trophic markers during spring in Baffin Bay, Canadian Arctic

Author

Yunda-guarin, Gustavo, Brown, Thomas A., Michel, Loic, Saint-béat, Blanche, Amiraux, Rémi, Nozais, Christian, Archambault, Philippe, Yunda-guarin, Gustavo, Brown, Thomas A., Michel, Loic, Saint-béat, Blanche, Amiraux, Rémi, Nozais, Christian, and Archambault, Philippe

Abstract

Benthic organisms depend primarily on seasonal pulses of organic matter from primary producers. In the Arctic, declines in sea ice due to warming climate could lead to changes in this food supply with as yet unknown effects on benthic trophic dynamics. Benthic consumer diets and food web structure were studied in a seasonally ice-covered region of Baffin Bay during spring 2016 at stations ranging in depth from 199 to 2,111 m. We used a novel combination of highly branched isoprenoid (HBI) lipid biomarkers and stable isotope ratios (δ13C, δ15N) to better understand the relationship between the availability of carbon sources in spring on the seafloor and their assimilation and transfer within the benthic food web. Organic carbon from sea ice (sympagic carbon [SC]) was an important food source for benthic consumers. The lipid biomarker analyses revealed a high relative contribution of SC in sediments (mean SC% ± standard deviation [SD] = 86% ± 16.0, n = 17) and in benthic consumer tissues (mean SC% ± SD = 78% ± 19.7, n = 159). We also detected an effect of sea-ice concentration on the relative contribution of SC in sediment and in benthic consumers. Cluster analysis separated the study region into three different zones according to the relative proportions of SC assimilated by benthic macrofauna. We observed variation of the benthic food web between zones, with increases in the width of the ecological niche in zones with less sea-ice concentration, indicating greater diversity of carbon sources assimilated by consumers. In zones with greater sea-ice concentration, the higher availability of SC increased the ecological role that primary consumers play in driving a stronger transfer of nutrients to higher trophic levels. Based on our results, SC is an important energy source for Arctic deep-sea benthos in Baffin Bay, such that changes in spring sea-ice phenology could alter benthic food-web structure.

Published
2020
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195. Assessment of Ba/Ca in Arctica islandica shells as a proxy for phytoplankton dynamics in the Northwestern Atlantic Ocean

Author

Doré, Justine, Chaillou, Gwénaelle, Poitevin, Pierre, Lazure, Pascal, Poirier, André, Chauvaud, Laurent, Archambault, Philippe, Thébault, Julien, Doré, Justine, Chaillou, Gwénaelle, Poitevin, Pierre, Lazure, Pascal, Poirier, André, Chauvaud, Laurent, Archambault, Philippe, and Thébault, Julien

Abstract

Despite its major role as a global climate regulator, little is known about the recent evolution of the North Atlantic Ocean, especially prior to the fifties, principally because of the lack of long-term instrumental data. Moreover, the North Atlantic Ocean is undergoing rapid changes at the physical scale leading to modifications at the biological scale increasing interest to monitor the environment. The phytoplankton is the base of the ocean life and its perturbation can lead to further changes in the food chain. Recording its dynamics implies to observe both its spatial and temporal variations. This study brings forward the use of the Ba/Ca ratio from shells of the long-living bivalve Arctica islandica collected in the Northwestern Atlantic Ocean near Saint-Pierre and Miquelon (SPM) as a recorder of the past and present phytoplankton dynamics. A high inter and intra-reproducibility and synchrony between Ba/Cashell profiles were demonstrated allowing the reconstruction of a 124 years annually-resolved Ba/Cashell master chronology (from 1893 to 2016). This master chronology was positively correlated to the surface chlorophyll a measured by satellite sensor at regional (around SPM) and global scales (Northwestern Atlantic).

Published
2020
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196. Biodiversity–Ecosystem Functioning (BEF) approach to further understanding aquaculture–environment interactions with application to bivalve culture and benthic ecosystems

Author

Lacoste, Elise, Mckindsey, Christopher W., Archambault, Philippe, Lacoste, Elise, Mckindsey, Christopher W., and Archambault, Philippe

Abstract

Coastal benthic ecosystems may be impacted by numerous human activities, including aquaculture, which continues to expand rapidly. Indeed, today aquaculture worldwide provides more biomass for human consumption than do wild fisheries. This rapid development raises questions about the interactions the practice has with the surrounding environment. In order to design strategies of sustainable ecosystem exploitation and marine spatial planning, a better understanding of coastal ecosystem functioning is needed so that tools to quantify impacts of human activities, including aquaculture, may be developed. To achieve this goal, some possible directions proposed are integrated studies leading to new concepts, model development based on these concepts and comparisons of various ecosystems on a global scale. This review draws on existing literature to (i) briefly summarize the major ecological interactions between off‐bottom shellfish aquaculture and the environment, (ii) introduce research on the influence of benthic diversity on ecosystem functioning (BEF relationships) and (iii) propose a holistic approach to conduct aquaculture–environment studies using a BEF approach, highlighting the need for integrated studies that could offer insights and perspectives to guide future research efforts and improve the environmental management of aquaculture.

Published
2020
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197. Green Edge ice camp campaigns: understanding the processes controlling the under-ice Arctic phytoplankton spring bloom

Author

Massicotte, Philippe, Amiraux, Rémi, Amyot, Marie-pier, Archambault, Philippe, Ardyna, Mathieu, Arnaud, Laurent, Artigue, Lise, Aubry, Cyril, Ayotte, Pierre, Bécu, Guislain, Bélanger, Simon, Benner, Ronald, Bittig, Henry C, Bricaud, Annick, Brossier, Eric, Bruyant, Flavienne, Chauvaud, Laurent, Christiansen-stowe, Debra, Claustre, Hervé, Cornet-barthaux, Véronique, Coupel, Pierre, Cox, Christine, Delaforge, Aurélie, Dezutter, Thibault, Dimier, Céline, Dominé, Florent, Dufour, Francis, Dufresne, Christiane, Dumont, Dany, Ehn, Jens, Else, Brent, Ferland, Joannie, Forget, Marie-hélène, Fortier, Louis, Gali, Marti, Galindo, Virginie, Gallinari, Morgane, Garcia, Nicole, Gerikas-ribeiro, Catherine, Gourdal, Margaux, Gourvil, Priscilla, Goyens, Clemence, Grondin, Pierre-luc, Guillot, Pascal, Guilmette, Caroline, Houssais, Marie-noëlle, Joux, Fabien, Lacour, Léo, Lacour, Thomas, Lafond, Augustin, Lagunas, José, Lalande, Catherine, Laliberté, Julien, Lambert-girard, Simon, Larivière, Jade, Lavaud, Johann, Lebaron, Anita, Leblanc, Karine, Le Gall, Florence, Legras, Justine, Lemire, Mélanie, Levasseur, Maurice, Leymarie, Edouard, Leynaert, Aude, Lopes Dos Santos, Adriana, Lourenço, Antonio, Mah, David, Marec, Claudie, Marie, Dominique, Martin, Nicolas, Marty, Constance, Marty, Sabine, Massé, Guillaume, Matsuoka, Atsushi, Matthes, Lisa, Moriceau, Brivaela, Muller, Pierre-emmanuel, Mundy, Christopher-john, Neukermans, Griet, Oziel, Laurent, Panagiotopoulos, Christos, Pangazi, Jean-jacques, Picard, Ghislain, Picheral, Marc, Pinczon Du Sel, France, Pogorzelec, Nicole, Probert, Ian, Queguiner, Bernard, Raimbault, Patrick, Ras, Joséphine, Rehm, Eric, Reimer, Erin, Rontani, Jean-françois, Rysgaard, Soren, Saint-béat, Blanche, Sampei, Makoto, Sansoulet, Julie, Schmidt, Sabine, Sempere, Richard, Sevigny, Caroline, Shen, Yuan, Tragin, Margot, Tremblay, Jean-eric, Vaulot, Daniel, Verin, Gauthier, Vivier, Frédéric, Vladoiu, Anda, Whitehead, Jeremy, Babin, Marcel, Massicotte, Philippe, Amiraux, Rémi, Amyot, Marie-pier, Archambault, Philippe, Ardyna, Mathieu, Arnaud, Laurent, Artigue, Lise, Aubry, Cyril, Ayotte, Pierre, Bécu, Guislain, Bélanger, Simon, Benner, Ronald, Bittig, Henry C, Bricaud, Annick, Brossier, Eric, Bruyant, Flavienne, Chauvaud, Laurent, Christiansen-stowe, Debra, Claustre, Hervé, Cornet-barthaux, Véronique, Coupel, Pierre, Cox, Christine, Delaforge, Aurélie, Dezutter, Thibault, Dimier, Céline, Dominé, Florent, Dufour, Francis, Dufresne, Christiane, Dumont, Dany, Ehn, Jens, Else, Brent, Ferland, Joannie, Forget, Marie-hélène, Fortier, Louis, Gali, Marti, Galindo, Virginie, Gallinari, Morgane, Garcia, Nicole, Gerikas-ribeiro, Catherine, Gourdal, Margaux, Gourvil, Priscilla, Goyens, Clemence, Grondin, Pierre-luc, Guillot, Pascal, Guilmette, Caroline, Houssais, Marie-noëlle, Joux, Fabien, Lacour, Léo, Lacour, Thomas, Lafond, Augustin, Lagunas, José, Lalande, Catherine, Laliberté, Julien, Lambert-girard, Simon, Larivière, Jade, Lavaud, Johann, Lebaron, Anita, Leblanc, Karine, Le Gall, Florence, Legras, Justine, Lemire, Mélanie, Levasseur, Maurice, Leymarie, Edouard, Leynaert, Aude, Lopes Dos Santos, Adriana, Lourenço, Antonio, Mah, David, Marec, Claudie, Marie, Dominique, Martin, Nicolas, Marty, Constance, Marty, Sabine, Massé, Guillaume, Matsuoka, Atsushi, Matthes, Lisa, Moriceau, Brivaela, Muller, Pierre-emmanuel, Mundy, Christopher-john, Neukermans, Griet, Oziel, Laurent, Panagiotopoulos, Christos, Pangazi, Jean-jacques, Picard, Ghislain, Picheral, Marc, Pinczon Du Sel, France, Pogorzelec, Nicole, Probert, Ian, Queguiner, Bernard, Raimbault, Patrick, Ras, Joséphine, Rehm, Eric, Reimer, Erin, Rontani, Jean-françois, Rysgaard, Soren, Saint-béat, Blanche, Sampei, Makoto, Sansoulet, Julie, Schmidt, Sabine, Sempere, Richard, Sevigny, Caroline, Shen, Yuan, Tragin, Margot, Tremblay, Jean-eric, Vaulot, Daniel, Verin, Gauthier, Vivier, Frédéric, Vladoiu, Anda, Whitehead, Jeremy, and Babin, Marcel

Abstract

The Green Edge initiative was developed to investigate the processes controlling the primary productivity and the fate of organic matter produced during the Arctic phytoplankton spring bloom (PSB) and to determine its role in the ecosystem. Two field campaigns were conducted in 2015 and 2016 at an ice camp located on landfast sea ice southeast of Qikiqtarjuaq Island in Baffin Bay (67.4797N, 63.7895W). During both expeditions, a large suite of physical, chemical and biological variables was measured beneath a consolidated sea ice cover from the surface to the bottom at 360 m depth to better understand the factors driving the PSB. Key variables such as temperature, salinity, radiance, irradiance, nutrient concentrations, chlorophyll-a concentration, bacteria, phytoplankton and zooplankton abundance and taxonomy, carbon stocks and fluxes were routinely measured at the ice camp. Here, we present the results of a joint effort to tidy and standardize the collected data sets that will facilitate their reuse in other Arctic studies. The dataset is available at http://www.seanoe.org/data/00487/59892/ (Massicotte et al., 2019a).

Published
2020
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198. Practical advice on monitoring of U and Pu with marine bivalve mollusks near the Fukushima Daiichi Nuclear Power Plan

Author

Zuykov, Michael, Fowler, Scott W., Archambault, Philippe, Spiers, Graeme, Schindler, Michael, Zuykov, Michael, Fowler, Scott W., Archambault, Philippe, Spiers, Graeme, and Schindler, Michael

Abstract

Following the Fukushima Daiichi nuclear power plant accident in 2011, some marine radionuclide monitoring studies report a lack of evidence for contamination of Japanese coastal waters by U and Pu, or state that marine contamination by them was negligible. Nevertheless, Fukushima-derived U and Pu were reported as associated with Cs-rich microparticles (CsMPs) found in local soil, vegetation, and river/lake sediments. Over time, CsMPs can be transported to the sea via riverine runoff where actinides, as expected, will leach. We recommend establishing a long-term monitoring of U and Pu in the nearshore area of the Fukushima Prefecture using marine bivalve mollusks; shells, byssal threads and soft tissues should all be analyzed. Here, based on results from Th biosorption experiments, we propose that U and Pu could be present at concentrations several times higher in shells with a completely destroyed external shell layer (periostracum) than in shells with intact periostracum.

Published
2020

199. Biodiversity Ecosystem Functioning (BEF) approach to further understanding aquaculture-environment interactions

Author

Lacoste, Élise, McKindsey, Christopher W., Archambault, Philippe, Lacoste, Élise, McKindsey, Christopher W., and Archambault, Philippe

Abstract

Coastal benthic ecosystems may be impacted by numerous human activities, including aquaculture, which continues to expand rapidly. Indeed, today aquaculture worldwide provides more biomass for human consumption than do wild fisheries. This rapid development raises questions about the interactions the practice has with the surrounding environment. In order to design strategies of sustainable ecosystem exploitation and marine spatial planning, a better understanding of coastal ecosystem functioning is needed so that tools to quantify impacts of human activities, including aquaculture, may be developed. To achieve this goal, some possible directions proposed are integrated studies leading to new concepts, model development based on these concepts and comparisons of various ecosystems on a global scale. This review draws on existing literature to (i) briefly summarize the major ecological interactions between off-bottom shellfish aquaculture and the environment, (ii) introduce research on the influence of benthic diversity on ecosystem functioning (BEF relationships) and (iii) propose a holistic approach to conduct aquaculture–environment studies using a BEF approach, highlighting the need for integrated studies that could offer insights and perspectives to guide future research efforts and improve the environmental management of aquaculture.

Published
2020

200. Oceans and human health : navigating changes on Canada’s coasts

Author

Kenny, Tiff-Annie, Archambault, Philippe, Ayotte, Pierre, Batal, Malek, Chan, Hing Man, Cheun, William, Eddy, Tyler D., Little, Matthew, Ota, Yoshitaka, Pétrin-Desrosiers, Claudel, Plante, Steve, Poitras, Julien, Polanco, Fernando, Singh, Gerald, Lemire, Mélanie, Kenny, Tiff-Annie, Archambault, Philippe, Ayotte, Pierre, Batal, Malek, Chan, Hing Man, Cheun, William, Eddy, Tyler D., Little, Matthew, Ota, Yoshitaka, Pétrin-Desrosiers, Claudel, Plante, Steve, Poitras, Julien, Polanco, Fernando, Singh, Gerald, and Lemire, Mélanie

Abstract

Ocean conditions can affect human health in a variety of ways that are often overlooked and unappreciated. Oceans adjacent to Canada are affected by many anthropogenic stressors, with implications for human health and well-being. Climate change further escalates these pressures and can expose coastal populations to unique health hazards and distressing conditions. However, current research efforts, education or training curriculums, and policies in Canada critically lack explicit consideration of these ocean–public health linkages. The objective of this paper is to present multiple disciplinary perspectives from academics and health practitioners to inform the development of future directions for research, capacity development, and policy and practice at the interface of oceans and human health in Canada. We synthesize major ocean and human health linkages in Canada, and identify climate-sensitive drivers of change, drawing attention to unique considerations in Canada. To support effective, sustained, and equitable collaborations at the nexus of oceans and human health, we recommend the need for progress in three critical areas: (i) holistic worldviews and perspectives, (ii) capacity development, and (iii) structural supports. Canada can play a key role in supporting the global community in addressing the health challenges of climate and ocean changes.

Published
2020

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